Logout from multiple network sites

ABSTRACT

Disclosed are various embodiments for logging out from multiple network sites using an authentication client that manages sessions for the network sites. Account data is maintained for multiple accounts of a user for multiple network sites. The account data includes a respective security credential for each of the accounts. An authentication client automatically authenticates with multiple authentication services corresponding to multiple network sites using multiple accounts in response to the user accessing each network site. A respective session is established for each network site. A logout is performed by ending each one of the sessions.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of, and claims priority to,co-pending U.S. patent application entitled “LOGOUT FROM MULTIPLENETWORK SITES,” filed on Feb. 1, 2012, and assigned application Ser. No.13/363,685, which is incorporated herein by reference in its entirety.

The following application is related to co-pending U.S. patentapplication entitled “ACCOUNT MANAGEMENT FOR MULTIPLE NETWORK SITES”filed on Feb. 1, 2012, having application Ser. No. 13/363,654, toco-pending U.S. patent application entitled “AUTHENTICATION MANAGEMENTSERVICES” filed on Feb. 1, 2012, having application Ser. No. 13/363,664,to co-pending U.S. patent application entitled “PRESENTING MANAGEDSECURITY CREDENTIALS TO NETWORK SITES” filed on Feb. 1, 2012, havingapplication Ser. No. 13/363,675, and to co-pending U.S. patentapplication entitled “RECOVERY OF MANAGED SECURITY CREDENTIALS” filed onFeb. 1, 2012, having application Ser. No. 13/363,681, which areincorporated herein by reference in their entirety.

BACKGROUND

Many web sites require users to log in with a username and password sothat the users may be securely identified. Users, however, often forgettheir username and/or password that are required to log in to a website. It is also common for users to use the same username and/orpassword for multiple web sites. Managing tens or even hundreds ofusernames and passwords is a major cause of pain for users and resultsin excessive abandonment rates where users simply fail to sign up for anew service if it requires a new account.

BRIEF DESCRIPTION OF THE DRAWINGS

Many aspects of the present disclosure can be better understood withreference to the following drawings. The components in the drawings arenot necessarily to scale, emphasis instead being placed upon clearlyillustrating the principles of the disclosure. Moreover, in thedrawings, like reference numerals designate corresponding partsthroughout the several views.

FIG. 1 is a drawing of a networked environment according to variousembodiments of the present disclosure.

FIGS. 2A-2C are drawings of examples of user interfaces rendered by aclient in the networked environment of FIG. 1 according to variousembodiments of the present disclosure.

FIGS. 3-6B are flowcharts illustrating examples of functionalityimplemented as portions of an authentication management client executedin a client in the networked environment of FIG. 1 according to variousembodiments of the present disclosure.

FIG. 7 is a flowchart illustrating one example of functionalityimplemented as portions of an authentication endpoint executed in acomputing device in the networked environment of FIG. 1 according tovarious embodiments of the present disclosure.

FIG. 8 is a flowchart illustrating one example of functionalityimplemented as portions of an authentication management service executedin a computing device in the networked environment of FIG. 1 accordingto various embodiments of the present disclosure.

FIG. 9 is a schematic block diagram that provides one exampleillustration of a client employed in the networked environment of FIG. 1according to various embodiments of the present disclosure.

DETAILED DESCRIPTION

The present disclosure relates to managing security credentials such asusernames, passwords, security keys, and/or other security credentials.Although passwords may be a strong security credential when usedproperly, they are often misused. For example, a user may set arelatively weak password, such as a word from a dictionary or a passwordthat is otherwise easy to guess. A user may also set the same passwordfor multiple accounts across multiple network sites and with differentsecurity requirements. Thus, if one account is compromised, all otheraccounts using the same password are also vulnerable.

Thus, many problems associated with using passwords as a securitycredential are caused by humans being unable to process the type of datathat passwords represent. Strong passwords often contain randomcharacters and are long, which makes them hard to remember. Passwordsare often not a single chunk of information and can stretch the limitsof human working memory. The system disclosed herein largely separatesthe user from the password, thereby resolving many of the issues. Forexample, the system may automatically generate a unique, strong passwordfor each network site, using characters selected from the entire set ofcharacters acceptable by the network site. This can provide excellentresilience to brute force, rainbow table, and/or other attacks. Inordinary use, the user may not need to know the password for the networksite. Further, the system may store the password on a server and makethe password available to the user across multiple client devices, evenon public-use client devices such as kiosks, etc. Access to thecentrally stored passwords may be protected by knowledge-basedquestions, master passwords, and/or other approaches. Various techniquesfor strong credential lifecycle management are described by U.S. patentapplication Ser. No. 13/194,287 entitled “MANAGING SECURITY CREDENTIALS”and filed on Jul. 29, 2011, which is incorporated herein by reference inits entirety.

In various embodiments, accounts may be created automatically by anauthentication management client providing a base set of informationabout a user to an account creation endpoint of a network site oridentity provider. Accounts may be upgraded as necessary by providingadditional information to access certain secured resources. Multipleusers may be able to login to the authentication management client,which may allow the users to create respective accounts and to accesssecured resources of network sites by authenticating using theauthentication management client. In some embodiments, multipleauthentication management services may be available, and may be offeredpotentially by competing entities. Some network sites or identityproviders may support some of the authentication management services butnot others. Users may migrate from one authentication management serviceto another.

In various embodiments, an authentication management client presentssecurity credentials to network sites (or identity providers) accordingto a domain name of the network site using domain name matching or othergroupings. Some network sites may support authentication using multipleidentity providers. Users may store preferences for preferred identityproviders to be used by an authentication management client wheremultiple identity providers are available. In some situations, accountsand security credentials managed by an authentication management servicemay be recovered and used only by preauthorized clients. Also,credentials may be changed or exported to facilitate use outside of theauthentication client. In some embodiments, where the authenticationclient facilitates logging into multiple network sites using multipleaccounts, the authentication client may be configured to provideautomatic logout functionality for the multiple network sites. In thefollowing discussion, a general description of the system and itscomponents is provided, followed by a discussion of the operation of thesame.

With reference to FIG. 1, shown is a networked environment 100 accordingto various embodiments of the present disclosure. The networkedenvironment 100 includes a client 103 that may be in data communicationwith computing devices 106, and computing devices 112 by way of anetwork 115. The network 115 includes, for example, the Internet,intranets, extranets, wide area networks (WANs), local area networks(LANs), wired networks, wireless networks, or other suitable networks,etc., or any combination of two or more such networks. The client 103may also be in data connection with a portable data store 118 by way of,for example, a local interface, data bus, or another network 115.

The client 103 may comprise, for example, a computer system such as adesktop computer, a laptop computer, personal digital assistants,cellular telephones, smartphones, set-top boxes, music players, webpads, tablet computer systems, game consoles, electronic book readers,kiosks, or other devices with like capability. Further, the client 103may also comprise any device that is network capable that maycommunicate with the computing devices 106, 112 over the network 115 toperform various functions. Such clients 103 may comprise, for example,processor-based devices having processor circuits comprising a processorand a memory.

The client 103 may be configured to execute various applications such asa browser 121, an authentication management client 124, and/or otherapplications. The browser 121 may be executed in a client 103, forexample, to access and render network pages, such as web pages, gopherpages, mobile application content, or other forms of network contentserved up by the computing devices 106 and/or other servers. Theauthentication management client 124 may be executed to manage useraccounts for network sites and identity providers, including usernames,passwords, private and public keys, certificates, and/or other securitycredentials.

In some embodiments, the authentication management client 124 runs as aplug-in application to the browser 121. For example, the authenticationmanagement client 124 may be implemented as a toolbar for the browser121. Authentication management clients 124 may be implemented inhypertext markup language (HTML) version 5, or another language. Inother embodiments, the authentication management client 124 may be astandalone application that interfaces with the browser 121, mobileapplications, and/or other applications requiring management ofauthentication. The client 103 may be configured to execute applicationsbeyond the browser 121 and the authentication management client 124 suchas, for example, e-mail applications, instant message applications, andother applications.

The client 103 includes a data store 127, and potentially other datastores, which may comprise data and applications configured to provideaccess to the data. The data store 127 may be used to store clientaccount data 130, identity provider preference data 131, certificatetrust data 133, and/or potentially other data. The client account data130 may include, for example, security credentials used to accessvarious network sites or network pages, information regardingauthentication endpoints, and/or other information. In variousembodiments, client account data 130 may be stored in an encryptedformat. In various embodiments, client account data 130 may be storedephemerally such that the security credentials are erased uponexpiration of a session of the authentication management client 124. Inone embodiment, the data store 127 may store an encrypted key that maybe decrypted in response to a master security credential obtained fromthe user. The decrypted key may then be used to decrypt the clientaccount data 130.

The client account data 130 may also include a set of information aboutthe user that may be employed by the authentication management client124 in automatically creating or upgrading an account. Such informationmay include, for example, first name, last name, middle initial ormiddle name, email address, phone number, physical address, date ofbirth, and/or other information. The stored user information may bedivided into more sensitive sets and less sensitive sets, which may behighlighted when a user provides consent to share the information. Inone embodiment, information deemed less sensitive may be shared bydefault to create or upgrade accounts. If user information is requestedfor account creation or upgrade but is not stored in the client accountdata 130, a form may be rendered for the user to provide the missinginformation. In one embodiment, a “base” set of information may bedefined by a standard.

The identity provider preference data 131 may indicate user preferencesfor identity providers to be used by the authentication managementclient 124 where multiple identity providers are available for a networksite. Certificate trust data 133 may describe trusted certificateauthorities that issue digital certificates used by network sites.Certificate trust data 133 may comprise, for example, public keysassociated with the trusted certificate authorities. The public keys maybe used to validate the digital signature of a trusted certificateauthority on a digital certificate.

The computing device 106 may comprise, for example, a server computer orany other system providing computing capability. Alternatively, aplurality of computing devices 106 may be employed that are arranged,for example, in one or more server banks or computer banks or otherarrangements. For example, a plurality of computing devices 106 togethermay comprise a cloud computing resource, a grid computing resource,and/or any other distributed computing arrangement. Such computingdevices 106 may be located in a single installation or may bedistributed among many different geographical locations. For purposes ofconvenience, the computing device 106 is referred to herein in thesingular. Even though the computing device 106 is referred to in thesingular, it is understood that a plurality of computing devices 106 maybe employed in the various arrangements as described above.

The computing device 106 is configured to execute various applicationssuch as, for example, a network page server 136, an authenticationservice 137 having an account creation endpoint 138 and anauthentication endpoint 139, and other applications. The network pageserver 136 is configured to serve up network pages, such as web pages,and other data from the computing device 106 to various clients 103. Thenetwork page server 136 may be configured to send network pages byhypertext transfer protocol (HTTP), hypertext transfer protocol secure(HTTPS), or some other protocol. The network page server 136 may employencryption using, for example, secure sockets layer (SSL), transportlayer security (TLS), and/or some other approach. Non-limiting examplesof network page servers 136 include Apache® HTTP Server, Apache® Tomcat,Microsoft® Internet Information Services (IIS), and other serverapplications.

The network page server 136 may be configured to serve up one or morenetwork sites 140. Such a network site 140 is said to be hosted by thenetwork page server 136. A network site 140 may include a set of networkpages and/or files associated with a domain name, such as a canonicalname, and a directory, such as a root directory (i.e., “/”) or someother directory. Each network site 140 may be associated with distinctconfiguration settings in the network page server 136, while otherdefault configuration settings may be shared across network sites 140.

The authentication service 137 is executed to facilitate accountcreation and authentication. The authentication service 137 may beoperated by the network site 140 or may be employed by multiple networksites 140. Where the authentication service 137 is employed by multiplenetwork sites 140, the authentication service 137 may be referred to asan identity provider. As an identity provider, the authenticationservice 137 may be used by many different network sites 140 operated bymany different entities. In some cases, a network site 140 may supportmultiple authentication services 137 or identity providers. In variousembodiments, the network sites 140 and the authentication services 137may be executed in the same computing device 106 or in differentcomputing devices 106.

The account creation endpoint 138 may comprise a network page and/orsoftware configured to facilitate creation of one or more accountsand/or the establishment of security credentials for existing accountsfor one or more users at a client 103 for one or more network sites 140using an account creation protocol. In various embodiments, theauthentication management client 124 communicates with the accountcreation endpoint 138 through the network page server 136. To this end,the account creation endpoint 138 may be a plug-in or other module ofthe network page server 136, a script or other software embedded withina network page or otherwise within a network site 140 and executed byway of an interpreter or a common gateway interface, or accessed in someother way through the network page server 136. In other embodiments, theaccount creation endpoint 138 may be a server application executing onthe same or a different computing device 106 as the network page server136.

The authentication endpoint 139 may comprise a network page and/orsoftware configured to facilitate authentication of a user at a client103 for one or more network sites 140. In various embodiments, theauthentication management client 124 communicates with theauthentication endpoint 139 through the network page server 136. To thisend, the authentication endpoint 139 may be a plug-in or other module ofthe network page server 136, a script or other software embedded withina network page or otherwise within a network site 140 and executed byway of an interpreter or a common gateway interface, or accessed in someother way through the network page server 136. In other embodiments, theauthentication endpoint 139 may be a server application executing on thesame or a different computing device 106 as the network page server 136.

The computing device 106 includes a data store 142 and potentially otherdata stores, which may comprise data and applications configured toprovide access to the data. The data store 142 may be used to storenetwork pages 145, configuration files 148, site account data 151,certificate data 154, and/or potentially other data. Network pages 145may include the network pages and/or files served up for the networksites 140 hosted by the network page server 136. Configuration files 148may include one or more security credential specifications and/ordescribe an interface of one or more account creation endpoints 138and/or authentication endpoints 139. Site account data 151 comprisessecurity credentials and/or other data associated with users of one ormore network sites 140. Certificate data 154 comprises digitalcertificates that may be used by the network page server 136, theauthentication endpoint 139, and/or other applications on the computingdevice 106 to identify a network site and/or encrypt data.

The computing device 112 may comprise, for example, a server computer orany other system providing computing capability. Alternatively, aplurality of computing devices 112 may be employed that are arranged,for example, in one or more server banks or computer banks or otherarrangements. For example, a plurality of computing devices 112 togethermay comprise a cloud computing resource, a grid computing resource,and/or any other distributed computing arrangement. Such computingdevices 112 may be located in a single installation or may bedistributed among many different geographical locations. For purposes ofconvenience, the computing device 112 is referred to herein in thesingular. Even though the computing device 112 is referred to in thesingular, it is understood that a plurality of computing devices 112 maybe employed in the various arrangements as described above.

Various applications and/or other functionality may be executed in thecomputing device 112 according to various embodiments. Also, variousdata is stored in a data store 160 that is accessible to the computingdevice 112. The data store 160 may be representative of a plurality ofdata stores 160 as can be appreciated. The data stored in the data store160, for example, is associated with the operation of the variousapplications and/or functional entities described below.

The components executed on the computing device 112, for example,include an authentication management service 163 and other applications,services, processes, systems, engines, or functionality not discussed indetail herein. The authentication management service 163 is executed toprovide access to security credentials stored by the computing device112 in association with a user account with a network site 140. Invarious embodiments, the authentication management service 163 may beconfigured to generate user accounts and/or establish securitycredentials with the network site 140 on behalf of a user at a client103. In various embodiments, the authentication management service 163may authenticate clients 103 using a master security credential and/orknowledge-based questions.

In one embodiment, the authentication management services 163 areregistered in a directory of such services. Such a directory may bemaintained by an impartial third party. The authentication managementservices 163 may be differentiated with respect to one another. Someauthentication management services 163 may, for example, offer aprivacy-friendly service that ensures users that their browsing habitsare not being profiled by the authentication management service 163.Other authentication management services 163 may choose to track loginsperformed by the authentication management client 124. Users may be ableto migrate their account data from one authentication management service163 to another authentication management service 163 by way of amigration protocol.

The data stored in the data store 160 includes, for example, serveraccount data 166, valid master credentials 169, valid supplementalcredentials 170, static knowledge-based questions 172, user data 175,configuration files 176, and potentially other data. The data stored inthe data store 160 may be partitioned into user-specific data and globaldata. The server account data 166 includes security credentials forusers for authentication to network sites 140. Such security credentialsmay be stored in an encrypted form or a non-encrypted form. The serveraccount data 166 may also include information regarding account creationendpoints 138, authentication endpoints 139 and/or other information.The authentication management clients 124 may be configured to updateand synchronize the server account data 166 with the client account data130 frequently to ensure freshness when the user logs in via multipleclients 103.

The valid master credentials 169 are employed to authenticate users forthe authentication management service 163. In one example, the validmaster credentials 169 may correspond to hashed versions of a mastersecurity credential established by users. The valid supplementalcredentials 170 correspond to supplemental credentials that may also beemployed to authenticate users for the authentication management service163. Unlike the master security credential, a combination of one or morevalid supplemental credentials 170 along with correct answers to one ormore knowledge-based questions may be needed for a user to beauthenticated. Respective weights may be applied to each component of ascore used to determine authentication.

The static knowledge-based questions 172 correspond to knowledge-basedquestions for which the user has preconfigured an answer. Such questionsmay be selected by the user or may be preselected. The user data 175corresponds to various data associated with users. Such user data 175may relate to purchase transactions of a user with an online retailer,browsing history, order history, search history, profile information,and/or other data. The user data 175 may be employed to generate dynamicknowledge-based questions as will be described. The user data 175 maycorrespond to data describing the interactions of a user with a networksite 140 in some embodiments.

The configuration files 176 may include one or more security credentialspecifications and/or describe an interface of one or more accountcreation endpoints 138 and/or authentication endpoints 139. While thedata in the data store 160 that has been previously discussed has beenof a user-specific nature, the configuration files 176 may be non-userspecific and thus may be considered global data.

The portable data store 118 may comprise, for example, a universalserial bus (USB) flash storage device, a solid-state storage device, aportable hard disk, a floppy disk, an optical disc, and/or otherportable storage devices. In various embodiments, the portable datastore 118 may include a processor circuit comprising a processor and amemory. In other embodiments, the portable data store 118 may merelyconsist of a non-transitory computer-readable storage medium. Theportable data store 118 may be removably attached to the client 103 insome embodiments.

The portable data store 118 may be configured to store portable accountdata 178, authentication management client code 179, and/or other data.The portable account data 178 may include, for example, securitycredentials used to access various network sites 140 or network pages145, information regarding authentication endpoints 139, master securitycredentials to decrypt the client account data 130, and/or otherinformation. In various embodiments, the portable account data 178 maybe a mirror of the client account data 130 or the server account data166. In other embodiments, the portable account data 178 may take theplace of client account data 130 or the server account data 166. Theportable account data 178 may be stored in an encrypted format.

To this end, the portable data store 118 may include a device (e.g., afingerprint scanner or other biometric recognition device, a pin pad,etc.) used to authenticate a user in order to provide access to the dataon the portable data store 118, such as portable account data 178; or itmay include hardware and/or software to permit a user to enter apassword and/or decryption key in order to provide access to the data onthe portable data store 118. Additionally, in some embodiments, theauthentication management client 124 may be stored as authenticationmanagement client code 179 on the portable data store 118 and executedin the client 103, for example, when the portable data store 118 isattached to the client 103.

Next, a general description of the operation of the various componentsof the networked environment 100 is provided. To begin, a user mayinstall authentication management client 124 onto the client 103 andpreconfigure the operation of the authentication management client 124for existing accounts associated with network sites 140. For example,the user may provide to the authentication management client 124 and/orthe authentication management service 163 existing security credentialssuch as, for example, usernames, passwords, security keys, certificates,and/or other security credentials along with identifying information forthe network sites 140 and/or uniform resource locators (URLs) associatedwith the security credentials. The authentication management client 124may be associated with one or more of multiple authentication managementservices 163. The authentication management clients 124 may or may notinteract with the authentication management services 163 by way of astandard authentication management protocol. In some cases, theauthentication management client 124 may show some logo or otherbranding associated with a corresponding authentication managementservice 163.

The user may also configure a master security credential such as, forexample, a username, password, biometric identification, etc. for theauthentication management client 124 so that the security credentialsmay be encrypted or otherwise protected from use or view on the client103 without the authorization of the user. In one embodiment, uponinstallation of the authentication management client 124, theauthentication management client 124 encrypts the client account data130 using a randomly-generated, high-entropy master key. This master keymay, in turn, be encrypted to a user-specified master key, which may bestored along with the client account data 130 to allow for localdecryption. In some embodiments, access to the operating system usersession in the client 103 may provide access to the client account data130 without a separate user login. In one embodiment where the client103 executes the Windows® operating system, the master securitycredential may be stored in “Credential Manager.”

Where the security credentials are stored in the server account data 166of the computing devices 112, the user may establish a valid mastercredential 169 with the authentication management service 163. In oneembodiment, the server account data 166 for the user may be stored in anencrypted form. In one embodiment, the server account data 166 for theuser is encrypted using a security credential generated as the result ofan SSL/TLS session between the client 103 and the computing device 112,e.g., a Rivest Cipher 4 (RC4) symmetric key or some other securitycredential. The encryption may be performed in the authenticationmanagement client 124 so that security credential details are not givenin the clear to the authentication management service 163. In somecases, the user may configure answers to static knowledge-basedquestions 172 with the authentication management service 163.

The account information may be stored by the authentication managementclient 124 in client account data 130 on the client 103 and/or at someother location. For example, the authentication management client 124may back up the account information to the site account data 151 locatedon the computing device 106, portable account data 178 located on in theportable data store 118, and/or another location. Various techniquesrelating to storage of the account information on the client 103 aredescribed by U.S. patent application Ser. No. 12/539,886 entitled“AUTHENTICATION MANAGER” and filed on Aug. 12, 2009, which isincorporated herein by reference in its entirety.

In some embodiments, the account information may be centrally hosted inthe server account data 166 of the computing devices 112. When thecomputing devices 112, the portable data store 118, or other storagelocations are used to store account information, a user may be able touse the authentication management client 124 and the account informationon another client 103. To this end, the authentication management client124 may be, for example, downloaded, configured, and loadedautomatically on another client 103. Additionally, various functionsthat are described as being performed by the authentication managementclient 124 may instead be performed by the authentication managementservice 163. For example, the authentication management service 163 maybe configured to create accounts, regenerate security credentials, etc.in place of the authentication management client 124. The authenticationmanagement client 124 in some cases may be characterized as a clientapplication of the authentication management service 163.

Security credentials may be shared among multiple users of theauthentication management client 124. As a non-limiting example, severalusers in an organization may share an online banking account. A firstuser may create a username and password for the account using theauthentication management client 124 and/or the authenticationmanagement service 163. The first user may mark the account as sharedand provide a list of users that are authorized to access the account,including a second user. When the account is distributed to clientaccount data 130, server account data 166, portable account data 178, itmay be secured such that only the authorized users can access it. Whenthe second user next uses the authentication management client 124, thesecond user may be given the opportunity to synchronize the new accountwith portable account data 178 located in the portable data store 118belonging to the second user or in some other location.

During the installation process, in one embodiment, the user may specifywhether the authentication management client 124 is to operate as abrowser 121 plug-in or as a standalone application. The authenticationmanagement client 124 may be installed and configured for a plurality ofbrowsers 121 such as Firefox®, Internet Explorer®, Safari®, Chrome®,and/or other browsers 121. The authentication management client 124 mayalso be configured for a plurality of users on the client 103.

When a user accesses a network site 140 with the browser 121 or anotherapplication, the authentication management client 124 determines whetherthe network site 140 is associated with stored account information,which may be stored, for example, centrally in the server account data166 or locally in the client account data 130. The authenticationmanagement client 124 may communicate with an authentication service 137of the network site 140 or of a separate identity provider.

The authentication management client 124 may refer to the domain name ofthe network site 140 in order to correlate a stored account with thenetwork site 140. In some cases, multiple network sites 140 havingdifferent domain names may use the same stored account. Sometimes, thisdetermination may be based on a portion of the domain name, such as thesecond-level domain portion. As a non-limiting example, a company mayhave several network sites 140 with different domain names for variousgeographic locales or generic top-level domains, e.g., “e-retailer.com,”“e-retailer.net,” “e-retailer.co.uk,” “e-retailer.eu,”“e-retailer.co.jp,” and so on. The authentication management client 124may identify the user account according to the string “e-retailer” beingin the domain name, rather than an exact match of the domain name.However, the matching may not be dispositive, and the network sites 140may in fact be unrelated. Accordingly, the identification of the accountmay be presented to the user for explicit confirmation before anysecured information from a stored account is exchanged with the networksite 140.

If the network site 140 is not associated with stored accountinformation, then the authentication management client 124 may notifythe user and may prompt the user to provide security credentials if theuser has an existing account. The user-provided security credentials maythen be stored by the authentication management client 124 in one ormore of client account data 130, server account data 166, or portableaccount data 178.

Alternatively, or additionally, the authentication management client 124and/or the authentication management service 163 may assist the user increating an account for the network site 140. The account may be aone-time account, a first account for the user, or a second orsubsequent account for the user. The authentication management client124 and/or the authentication management service 163 may determine howto create an account for a network site 140 based, for example, on thestructure of a form embedded within a network page 145. Such a form maybe defined in hypertext markup language (HTML), extensible markuplanguage (XML), or some other language.

As a non-limiting example, the authentication management client 124 mayidentify an account creation form when a submit input element on anetwork page 145 is associated with text such as “Create Account.” Theauthentication management client 124 may also examine the URL forrelevant keywords. As another non-limiting example, the authenticationmanagement client 124 may identify an account creation form when achallenge response test (e.g., a “Captcha”) is present. Theauthentication management client 124 may automatically identify requiredfields for security credentials using, for example, input elements on anetwork page 145 named “username,” “password,” or other identifiablenames. In various embodiments, the authentication management client 124may have the user identify the account creation form and/or tag inputelements of the form so that the authentication management client 124may accurately identify how the account may be created with formfilling. Such a list of tags can be stored in a configuration file 176which may then be uploaded to a computing device 112. There, theconfiguration file 176 can be accessed by other users using theauthentication management client 124 and used by them to simplifyaccount creation on the network site 140 described by the configurationfile 176. Alternatively, or additionally, configuration files 176 may bestored by the computing device 112 to be accessed by the authenticationmanagement client 124, the authentication management service 163, and/orother applications.

In various embodiments, the authentication management client 124 and/orthe authentication management service 163 may create the account in anautomated way through methods other than form filling. For example, theauthentication management client 124 and/or the authenticationmanagement service 163 may obtain a configuration file 148 associatedwith the network site 140 from either the network page server 136 forthe network site 140 or a computing device 112 that may provide aconfiguration file 176 associated with the network site 140. Theconfiguration file 148, 176 may define one or more account creationendpoints 138 for the network site 140 where the authenticationmanagement client 124 and/or the authentication management service 163may authenticate and/or create an account other than by filling out aform. For example, the configuration file 148, 176 may define the URL,parameters, encoding, and/or other information required to create anaccount in an automated way through an account creation endpoint 138. Insome embodiments, one account creation endpoint 138 may be shared bymultiple network sites 140 and/or network page servers 136. To preventunauthorized automatic creation of accounts, the authenticationmanagement client 124 and/or the authentication endpoint 139 may include“Captchas,” limit velocity of account creation, and/or take othermeasures.

The configuration file 148, 176 may also include a security credentialspecification associated with the network site 140. The securitycredential specification may specify a character set, minimum length,maximum length, and/or other parameters for usernames and/or passwords.The security credential specification may also specify minimum keylength, acceptable algorithms and formats, and/or other parametersapplicable to public key infrastructure or other types of securitycredentials.

The authentication management client 124 and/or the authenticationmanagement service 163 may generate one or more security credentialsbased on the security credential specification. In one embodiment, theauthentication management service 163 may be configured to obtain thesecurity credential specifications according to a subscription-basedpush model. In another embodiment, the authentication management service163 may be configured to pull the security credential specificationsfrom the computing device 106 at regular intervals.

When the authentication management client 124 and/or the authenticationmanagement service 163 is creating an account by form filling, theauthentication management client 124 may prompt the user to supply asecurity credential specification so that the authentication managementclient 124 and/or the authentication management service 163 may generateone or more security credentials to be filled in on the form. The usermay see information regarding required attributes for securitycredentials displayed on the network page 145 near the account creationform. The authentication management client 124 may provide optionsincluding, but not limited to, length of the security credential,directions to use a certain character set, directions to use at leastone number, directions to use at least one non-alphanumeric character,and other options.

As a non-limiting example, the authentication management client 124 maypresent a graphical interface to the user listing various attributesthat may be used in generating the security credentials. Such agraphical interface may include, for example, checkboxes, radio buttons,drop-down boxes, text fields, text areas, etc. The graphical interfacemay be preconfigured with default selections. Where the securitycredentials are generated by the authentication management service 163,the authentication management service 163 may perform the form filling,or the security credentials may be transferred to the authenticationmanagement client 124 for the authentication management client 124 toperform the form filling.

In various embodiments, when the authentication management client 124 iscreating an account by form filling, the authentication managementclient 124 may replace, for example, the normal user interaction infilling out the form with a wizard interface. The wizard interface mayomit tasks or fields that may be done automatically by theauthentication management client 124. However, the wizard interface mayobtain input from the user in order to fill out fields such as“Captchas” and other challenge response tests. Although theauthentication management client 124 and/or the authenticationmanagement service 163 may be configured to fill out fields pertainingto other personal information (e.g., name, date of birth, socialsecurity number, phone number, address, etc.), the authenticationmanagement client 124 may instead be configured to prompt the user forthat information. In various embodiments, the authentication managementclient 124 may leave unrecognized form fields blank for the user tocomplete.

Accordingly, the authentication management client 124 and/or browser 121sends an account creation request associated with the generated securitycredential to the network site 140. After the account creation requestis submitted, the account will either be created or not created for thenetwork site 140. The network site 140 typically provides a responsepage indicating whether the account creation was successful. Such anetwork page 145 may be parsed automatically by the authenticationmanagement client 124 or may be left for additional user input to theauthentication management client 124.

In some cases, the response page will include another form with anindication that there was a problem. As a non-limiting example, ausername field may be highlighted with an explanation that the specifiedusername was already taken. The authentication management client 124 maybe configured to respond automatically to such requests and/or to seekuser input. Account creation responses through an authenticationendpoint 139 may be handled by the authentication management client 124in an analogous way. In one embodiment, the authentication managementclient 124 may simply assume that the account was created.

Responsive to account creation, the authentication management client 124and/or the authentication management service 163 store the accountinformation including, but not limited to, security credentials, URLs,and domain names associated with the account and network site 140, inone or more of client account data 130, server account data 166, orportable account data 178. In particular, the network site 140 orauthentication endpoint 139 may present a trusted certificate fromcertificate data 154 during the account creation process. Informationrelating to this trusted certificate, including domain name, certificateauthority, and other information from the certificate, may be storedwith the account information.

The account information may consequently be marked as usable on anetwork site 140 corresponding to the domain name provided in thetrusted certificate, or only for a network site 140 able to present thatspecific certificate in higher assurance environments. Accountinformation stored in any of client account data 130, server accountdata 166, or portable account data 178 may be manually or automaticallycopied by the authentication management client 124 and/or theauthentication management service 163 to any other client account data130, server account data 166, or portable account data 178 so that theaccount information may be mirrored across any two or more of clientaccount data 130, server account data 166, or portable account data 178.

For purposes of backup, the authentication management client 124 and/orthe authentication management service 163 may be capable of rendering alist of the stored account information in client account data 130,server account data 166, or portable account data 178 for viewing orprinting. To facilitate viewing or printing, the authenticationmanagement client 124 and/or the authentication management service 163may be configured to generate human readable or printable securitycredentials using an appropriate character set. Alternatively, theauthentication management client 124 and/or the authenticationmanagement service 163 may encode security credentials in a printableform using an encoding approach such as, for example, UUencoding,BinHex, Multipurpose Internet Mail Extensions (MIME) encodings, Base64,and other encoding approaches.

Additionally, for purposes of recovery, the master security credentialmay be written to removable media such as a Universal Serial Bus (USB)key. To improve security in recovery cases, the master securitycredential may be encrypted to a secret stored in the client 103. Thisensures that a lost USB key or other removable media cannot be used toaccess the server account data 166. In some embodiments, recovery couldbe something implemented at least in part by the operating system bytying the master security credential to the user account in theoperating system.

To enable roaming and recovery, a set of one-time passwords may begenerated by the authentication management client 124. Each of these maybe used to generate additional encrypted versions of the master securitycredential, each of which may be appended to the server account data166. The one-time password may be enforced by the authenticationmanagement client 124 removing each entry from the server account data166 as it is used. The user may be responsible for keeping theseone-time passwords somewhere outside of the system (e.g., on a printout, wallet card, etc.)

In some embodiments, recovery and reset capabilities may be managed on aper-machine basis by the authentication management service 163. In oneembodiment, only the first client 103 for a given authenticationmanagement account may be capable of recovery. The authenticationmanagement service 163 could provide a user interface to manage clients103, including the ability to allow recovery/reset at additional clients103. Further, different types of account data recovery mechanisms may besupported (e.g., one-time passwords, operating system recovery,credential stored on removable media, etc.), and a subset of theseaccount data recovery mechanisms may be enabled or disabled on aper-client basis. For example, the authentication management client 124may be configured to request permission to use a particular one of theaccount data recovery mechanisms. Such a request may include aclient-identifying token.

The authentication management service 163 may enable or disable therequested account data recovery mechanism according to whetherauthorization has been granted to the particular client 103. As anon-limiting example, a first registered client 103 (e.g., a homemachine) may be able to use all recovery mechanisms, but by default,none of the recovery mechanisms may be available for use on otherclients 103 (e.g., a friend's machine). This may be used to preempt thepossibility of security attacks through such recovery mechanisms. Aninterface with the authentication management service 163 may be providedfor a user to selectively enable or disable particular recoverymechanisms for particular clients 103.

To facilitate recovery of a lost master security credential, the mastersecurity credential may be written to a portable data store 118 or otherremovable media. To improve security in such a situation, the mastersecurity credential may be encrypted to a key that is stored in theclient 103 so that the master security credential may be decrypted onlyat the client 103, even if the portable data store 118 or removablemedia is stolen. In some embodiments, the master security credential maycorrespond to an operating system credential that is managed by theoperating system.

In some embodiments, a set of one-time passwords may be generated by theauthentication management client 124, and each of these may be used togenerate additional encrypted versions of the master securitycredential, each of which may be appended to the client account data 130and server account data 166. To enforce the one-time passwords, eachentry is removed by the authentication management client 124 from theclient account data 130 as it is used. The user may be responsible forkeeping these one-time passwords secure outside the system (e.g., on aprint out, on a wallet card, etc.).

When a stored account exists for a network site 140, the authenticationmanagement client 124 and/or the authentication management service 163determines whether to provide the security credentials to the networksite 140. As a preliminary matter, the authentication management client124 and/or the authentication management service 163 may require thatthe user be authenticated to the authentication management client 124and the authentication management service 163 by way of a mastersecurity credential such as a password, presence of the portable datastore 118 at the client 103, biometric identification, native operatingsystem identification, or some other authentication. Responsive toauthentication, the authentication management client 124 may decrypt thestored client account data 130, server account data 166, or portableaccount data 178. In some embodiments, the authentication managementclient 124 may be given access to the stored client account data 130,server account data 166, or portable account data 178 responsive toproviding a master security credential. The authentication managementclient 124 then verifies the identity of the network site 140.

Verifying the identity of the network site 140 may be performed, forexample, by comparing a domain name associated with a trustedcertificate provided by a network site 140 at the time of logon with thedomain name associated with the network site 140 in the stored accountinformation. The authentication management client 124 may compare thedomain name associated with the trusted certificate provided by thenetwork site 140, for example, with a domain name provided by a user, adomain name inferred by heuristic analysis, or some other domain name,in order to identify which stored account the network site 140 appearsto resemble. Verifying the identity of the network site 140 through theuse of trusted certificates may be less susceptible to spoofing attacksthan by verifying the identity merely through domain name service (DNS)name resolution, for example, or comparing a stored domain name to whatis displayed in the address bar of the browser 121.

If the network site 140 provides no certificate (e.g., authenticationunder HTTP) or if the certificate is not trusted (e.g., self-signed orissued by a certificate authority not considered to be trusted in thecertificate trust data 133), the authentication management client 124may display a warning to the user. In some cases, the user may acceptthe warning and continue. In some embodiments, the authenticationmanagement client 124 may remember such characteristics and use them toaid in future identity verification of the network site 140. In othercases, the authentication management client 124 may identify a clear useof a spoofing attack or other phishing attempt and provide additionalwarnings, disable authentication at the particular network site 140,require reauthentication by the user to the authentication managementclient 124, and/or take other precautions. Additionally, by integratingthe authentication management client 124 with a site providingreputation data for network sites 140, the authentication managementclient 124 can warn the user that a network site 140 is hostile.

The authentication management client 124 may additionally verify theidentity of the network site 140 by other methods. One verificationmethod may comprise comparing the contents of the address bar in thebrowser 121 with a stored URL or domain name. A second verificationmethod may comprise comparing contents of the HTTP headers sent by theaccessed network site 140 with a stored URL or domain name. A thirdverification method may comprise performing a reverse DNS look-up on anInternet Protocol (IP) address associated with the accessed network site140 and comparing that domain name with a stored URL or domain name.Other verification methods may also be employed. More secure methods maybe employed prior to downgrading to less secure methods, and the usermay specify acceptable methods of proving the identity of network sites140.

Once the identity of a network site 140 is verified, the authenticationmanagement client 124 may provide the security credentials to thenetwork site 140 automatically through an authentication endpoint 139 ormay obtain user confirmation. If the authentication management client124 is configured to obtain user input, the authentication managementclient 124 may render a button or other user interface feature in or ontop of the browser 121 to obtain confirmation.

When no authentication endpoint 139 is defined for a network site 140,the authentication management client 124 may be configured to detectwhether an authentication form is presented. The authenticationmanagement client 124 may examine the network page 145 for elements suchas a submit input element associated with text such as “Log In,” inputfields matching “username” and/or “password,” fields using the passwordtype, and other identifying elements. The authentication managementclient 124 may also examine the URL for relevant keywords. In someembodiments, the authentication management client 124 and/or theauthentication management service 163 may store a URL associated withthe network site 140 in client account data 130, server account data166, or portable account data 178, which may be used for authentication.The authentication management client 124 may provide the securitycredentials to the network site 140 by form filling. The submission ofsuch a form may be automatic or may be subject to user input such asselection of a “Submit” or “Log In” button or other user interfaceelement.

In some cases, the user may forget the master security credential or maynot have access to the master security credential on another client 103.The user may then be able to either reset the master securitycredential, or gain at least temporary access to stored securitycredentials, through a procedure implemented by the authenticationmanagement service 163. Upon a user selecting a master securitycredential or reset option, the authentication management service 163may generate a user interface providing one or more knowledge-basedquestions. For example, the user interface may correspond to a networkpage for rendering in the browser 121. Alternatively, data may be sentto the authentication management client 124 in order for a userinterface to be rendered by the authentication management client 124.

The user interface may present static knowledge-based questions 172 thatare preconfigured by the user. For example, the user interface maypresent a question of “What is your mother's maiden name?,” “In whatcity were you born?,” “What was the mascot of your high school?,” and soon. The user interface may present true questions or false questions.True questions correspond to questions that can be validated by both theuser and the authentication management service 163 that are unique tothe user. False questions are those designed to catch an attacker who isattempting gain unauthorized access to the security credentials. Forexample, a false question may be: “What was the last payment amount forthe truck you lease?” where the correct answer should be: “I do not havea truck.”

Furthermore, the user interface may present knowledge-based questionsthat are dynamically generated by the authentication management service163. With dynamically generated questions, the user may have noforeknowledge as to what type of questions will be asked. Dynamicallygenerated questions may employ user data 175 including unique customerinformation such as purchase transaction history and/or other data. Oneexample of a dynamically generated question may be: “I see that youpurchased an item from E-Retailer yesterday, can you tell me the billamount?”

Multiple knowledge-based questions may be presented in a user interface.The answers to the knowledge-based questions may be used by theauthentication management service 163 to generate a score. When thescore meets a predefined threshold (e.g., one question answeredcorrectly, three questions answered correctly, one dynamically generatedquestion based on recent data answered correctly, etc.), the user may begranted access to the stored security credentials of the server accountdata 166 and/or access to establish a new valid master credential 169.It is noted that different weighting may be applied to different typesof questions in generating a score. For example, dynamic questions basedon a recent event may be given a greater weight than a static questionbased on information obtained during account creation. In the case ofnew or infrequent users for whom insufficient user data 175 is presentfor dynamically generated questions, the authentication managementservice 163 may fall back to employ the static knowledge-based questions172.

Once a user is authenticated by the authentication management service163 through the use of knowledge-based questions, or through a validmaster security credential, security credentials of the user from theserver account data 166 may be downloaded to the client account data 130for use by the authentication management client 124. In one example, theclient 103 corresponds to a kiosk or another public-use client 103. Insuch an example, the security credentials may be maintained ephemerallyin the memory of the client 103 such that they are erased from memorywhen the user logs out, exits the browser 121, or otherwise ends thesession of the authentication management client 124. Alternatively, thesecurity credentials may be saved to the client account data 130 forfuture use through the client 103.

Moreover, once a user is authenticated by the authentication managementservice 163, the user may be presented with an opportunity to set a newsecurity credential. For example, the user may supply the new securitycredential with or without the previous security credential. The validmaster credentials 169 are updated by the authentication managementservice 163 to store the new valid master credential 169. It is notedthat the valid master credential 169 may be hashed or otherwise encoded.

The authentication management service 163 may also be employed togenerate or regenerate security credentials according to securitycredential specifications in the configuration files 176. In addition toinitial account creation and configuration, the authenticationmanagement service 163 may be configured to regenerate securitycredentials periodically or when triggered by a user or administrator.For example, an administrator may trigger an automatic regeneration ofsecurity credentials for many users with accounts for a certain networksite 140 in response to a potential security compromise. Uponregeneration of the security credentials, the authentication managementservice 163 may establish the newly generated security credentials withthe various network sites 140 using the appropriate account creationendpoint 138. The authentication management service 163 may supply aprevious security credential to facilitate establishing the newlygenerated security credential. The security credentials may be generatedor regenerated to have a maximum security strength allowed by thesecurity credential specification.

Where multiple authentication management services 163 are available,authentication management clients 124 may be configured to import/exportthe client account data 130 for use with different authenticationmanagement services 163. Authentication management clients 124 may bedeployed by different providers of authentication management services163 or by other parties. In some embodiments, a particularauthentication management client 124 may function only with acorresponding authentication management service 163. Thus, theauthentication management client 124 may be configured to allow importand export of client account data 130 to different authenticationmanagement clients 124 for use with different authentication managementservices 163.

In one embodiment, the authentication management service 163 may providea revocation user interface in order to revoke security credentialsassociated with the server account data 166. To facilitate this centralrevocation, the security credentials in the server account data 166 maybe token based, and not based on literal storage of user credentials.Revocation and reset may be performed by the authentication managementclient 124 in some embodiments. For example, the authenticationmanagement client 124 may include a “reset all credentials” functionthat would automatically reset each credential to a newly generatedcredential. Knowledge-based questions may be asked of the user toprovide an additional check on the identity of the user beforeperforming the automatic credential resets.

In addition to credential resets, the authentication management client124 may support credential changes to user-specified passwords, etc.Such support may be useful in the case of a user going on vacationwithout access to the authentication management client 124. The user maywant to change the automatically generated security credentials to asingle temporary password that may be easy to remember. After returningfrom vacation, the user may reset the temporary password to newautomatically generated security credentials. In one embodiment, thesingle temporary password may have an expiration period, to be enforcedby the authentication management service 163.

Turning now to FIG. 2A, shown is an example of a network page 145(FIG. 1) rendered by a browser 121 (FIG. 1) executed in a client 103(FIG. 1) in the networked environment 100 (FIG. 1) according to variousembodiments of the present disclosure. In this example, the user mayhave entered, or may have been automatically redirected to, the URL“https://www.e-retailer.site/,” which is displayed in the address bar203 of the browser 121. The network page 145 provided by the networksite 140 (FIG. 1) in response to the URL includes an authentication formhaving a username field 206, a password field 209, and a submit button212.

The browser 121 includes a security indication 215 that indicates thatthe network site 140 has presented a trusted certificate and thecommunication between the client 103 and the computing device 106(FIG. 1) is being encrypted. In FIG. 2A, the authentication managementclient 124 (FIG. 1) has verified the identity of the network site 140and is presenting an authentication system selection 218. Theauthentication system selection 218 indicates that the user hasinstalled the authentication management client 124 and that accountinformation associated with the network site 140 is available. Inparticular, the authentication system selection 218 allows for selectionof account data from among multiple authentication services 137 (FIG.1). It may be assumed in FIG. 2A that the user has previouslyauthenticated with the authentication management client 124 or that anopportunity to authenticate will be presented if a supportedauthentication service 137 is selected. If account data did not exist,the authentication system selection 218 may allow for account creationwith a selected authentication service 137.

Once a user selects the authentication service 137, the authenticationmanagement client 124 may fill in the username field 206 and thepassword field 209. The authentication management client 124 may alsoautomatically submit the logon request by programmatically pressing thesubmit button 212. In some embodiments, the username field 206 andpassword field 209 may be prefilled automatically with the securitycredential upon verification of the identity of the network site 140.The security credentials may be shown as place holding characters or asplain text.

Alternatively, if, for example, an authentication endpoint 139 (FIG. 1)is defined, the authentication management client 124 or theauthentication management service 163 (FIG. 1) may authenticate with theauthentication endpoint 139 in the background. The authenticationmanagement client 124 may give an indication of success or failure andmay provide another user interface element in order to log out of thenetwork site 140.

Moving on to FIG. 2B, shown is another example of a network page 145(FIG. 1) rendered by a browser 121 (FIG. 1) executed in a client 103(FIG. 1) in the networked environment 100 (FIG. 1) according to variousembodiments of the present disclosure. In the example of FIG. 2B, anauthentication management client 124 (FIG. 1) is configured in theclient 103, but no account is found for the current network site 140(FIG. 1). Thus, the user is presented with the username field 206 andthe password field 209 and a notification 221 that no account is found.A checkbox or other user interface component may be provided inassociation with the notification 221 for the user to consent to add theprovided legacy account information to the authentication managementclient 124. Further, a link, button, or other user interface componentmay be provided for the user to consent to account creation.

With reference to FIG. 2C, shown is yet another example of a networkpage 145 (FIG. 1) rendered by a browser 121 (FIG. 1) executed in aclient 103 (FIG. 1) in the networked environment 100 (FIG. 1) accordingto various embodiments of the present disclosure. In the example of FIG.2C, the network site 140 (FIG. 1) supports authentication by way of anauthentication management client 124 (FIG. 1), but no authenticationmanagement client 124 is detected. In this case, a notification 224 maybe presented to that effect. The notification 224 may be presented inassociation with a user interface component 227 such as a button, link,etc. to allow the user to view more information about the authenticationmanagement client 124, to create an account with an authenticationmanagement service 163 (FIG. 1), to download and/or install anauthentication management client 124, and/or perform other actions.Alternatively, the user may log on to the network site 140 with a legacyusername and password using the username field 206 and the passwordfield 209.

Referring next to FIG. 3, shown is a flowchart that provides one exampleof the operation of a portion of the authentication management client124 according to various embodiments. It is understood that theflowchart of FIG. 3 provides merely an example of the many differenttypes of functional arrangements that may be employed to implement theoperation of the portion of the authentication management client 124 asdescribed herein. As an alternative, the flowchart of FIG. 3 may beviewed as depicting an example of steps of a method implemented in theclient 103 (FIG. 1) according to one or more embodiments.

Beginning with box 303, the authentication management client 124authenticates a user to an authentication management service 163 (FIG.1). For example, a user may log in to an operating system session whichis tied to a session of the authentication management client 124.Alternatively, the user may log in to the authentication managementclient 124 directly. In box 306, the authentication management client124 obtains encrypted account data from the authentication managementservice 163. In some cases, this encrypted account data may already bestored in the client 103 as client account data 130 (FIG. 1) or in aportable data store 118 (FIG. 1) as portable account data 178 (FIG. 1).In box 309, the authentication management client 124 decrypts theencrypted account data based at least in part on a master securitycredential supplied by the user. The decrypted account data may bestored, at least ephemerally, as the client account data 130 for useduring a user session of the authentication management client 124.

In box 312, the authentication management client 124 determines that asecured resource of a network site 140 (FIG. 1) is to be accessed. Forexample, the user may employ the browser 121 (FIG. 1) to navigate to asecured network page 145 (FIG. 1) or other secured network resource. Inbox 315, the authentication management client 124 determines whether theclient account data 130 includes an account for the network site 140 (oran identity provider used by the network site 140). To this end, theauthentication management client 124 may determine one or moreauthentication services 137 (FIG. 1) associated with the network site140 having an authentication endpoint 139 (FIG. 1) and an accountcreation endpoint 138 (FIG. 1). The authentication services 137 maycorrespond to third-party authentication providers in some cases. Theauthentication management client 124 may send a query to the networksite 140 to determine the supported authentication services 137 and/ormay determine the supported authentication services 137 based at leastin part on the content of a network resource already obtained by thebrowser 121.

The authentication management client 124 may determine the existence ofan account in the client account data 130 according to the domain nameof the network site 140 or through other identifying data available fromthe network site 140. In one embodiment, the authentication managementclient 124 may query the authentication management service 163 to obtaininformation to map the domain name of the network site 140 to a storedaccount. In another embodiment, the authentication management client 124may perform a matching on at least a portion of the domain name, such asthe second-level domain name, e.g., “e-retailer” within “e-retailer.com”and “e-retailer.co.uk.” Thus, the different first-level domain names maybe ignored when determining which account may be used.

Where a matching is performed across different domain names, an explicituser confirmation may be solicited before an identified existing accountis actually utilized. Where multiple accounts are configured for thesame base domain name, the account having the longest match may beemployed. As a non-limiting example, an account for “us.e-retailer.com”may be preferred to log into “www.e-retailer.com” instead of an accountfor “e-retailer.com.”

If an existing account is identified, the authentication managementclient 124 authenticates to the authentication service 137 of thenetwork site 140 using the security credentials of the pre-existingaccount in box 318. Subsequently, the secured resources of the networksite 140 may be accessed. In most cases, this authentication may happenautomatically without user intervention. However, in some cases (e.g.,with high-value transactions), the authentication service 137 may set aflag in the authentication protocol to require explicit consent, therebyforcing the user to consent to the log in using the authenticationmanagement client 124. Also, where multiple accounts are identified, theauthentication management client 124 may be configured to render a userinterface to obtain a user selection of one of the accounts. Thereafter,the portion of the authentication management client 124 ends.

If an existing account is not identified, the authentication managementclient 124 moves from box 315 to box 321 and determines whether the userhas a legacy account, i.e., an existing account not available in theclient account data 130. To this end, the authentication managementclient 124 may render a user interface that is configured to prompt theuser to enter legacy account information and security credentials, ifthe user has a legacy account. If the user has a legacy account, in box324, the authentication management client 124 obtains the legacy accountinformation from the user.

In box 327, the authentication management client 124 stores the legacyaccount information in the client account data 130. In some cases, theauthentication management client 124 may transition the providedsecurity credentials to stronger credentials as defined in a securitycredential specification. The user may be prompted to consent to such acredential change. In box 330, the authentication management client 124authenticates with the network site 140 using the respectiveauthentication service 137 and the legacy account information.Thereafter, the portion of the authentication management client 124ends.

If the user does not provide legacy account information, or if the userprovides a confirmation that the user does not have an existing accountcapable of accessing the secured resource, the authentication managementclient 124 moves from box 321 to box 333. In box 333, the authenticationmanagement client 124 determines whether a new account is to be createdfor the network site 140. For example, the user may have specified a setof information (e.g., name, email address, age, etc.) that may be sharedwith account creation endpoints 138 in order to create an account. Theuser may have established rules to automatically consent to the sharingof some information but not other information. If an account is not tobe created, e.g., the user does not give consent or stored preferencesdisallow sharing of the information, the portion of the authenticationmanagement client 124 ends. Otherwise, if a new account is to be createdfor the user, the authentication management client 124 transitions frombox 333 to box 336.

In box 336, the authentication management client 124 obtains consentfrom the user to share the information needed to create an accountcapable of accessing the secured resource. Such a consent may correspondto an explicit confirmation in a user interface, a stored consentpreference, and/or other forms of consent. The authentication managementclient 124 may determine which set of information (out of a superset ofinformation) is needed by obtaining an indication of the particular setfrom the account creation endpoint 138. The authentication managementclient 124 may obtain additional information from the user in somecases. The additional information may include freeform data, multiplechoice selections, yes or no answers, and/or other data.

In box 339, the authentication management client 124 automaticallycreates the account using the set of information about the user bycommunicating with the account creation endpoint 138. In some cases, theaccount may be with an operator of the network site 140. In other cases,the account may be with a third-party identity provider, which mayenable the account to access multiple secured resources across multiplenetwork sites 140 associated with multiple operators.

In box 342, if the account was created successfully, the authenticationmanagement client 124 stores the resulting account information,including, for example, automatically generated security credentials, inthe client account data 130. In box 345, the authentication managementclient 124 authenticates with the authentication endpoint 139 of thenetwork site 140 using the new account to facilitate access to thesecured resource. Thereafter, the portion of the authenticationmanagement client 124 ends.

Turning now to FIG. 4, shown is a flowchart that provides one example ofthe operation of another portion of the authentication management client124 according to various embodiments. Specifically, FIG. 4 relates to anaccount creation workflow that may include upgrading an existingaccount. Upgrading may be performed to access secured resources of anetwork site that are otherwise not accessible by the existing account.For example, a user may create an account with an online merchant tobrowse without providing a shipping address, but a shipping address maybe necessary to place an order. The user may be able to upgrade theaccount to place the order by providing the shipping address. It isunderstood that the flowchart of FIG. 4 provides merely an example ofthe many different types of functional arrangements that may be employedto implement the operation of the portion of the authenticationmanagement client 124 as described herein. As an alternative, theflowchart of FIG. 4 may be viewed as depicting an example of steps of amethod implemented in the client 103 (FIG. 1) according to one or moreembodiments.

Beginning with box 403, the authentication management client 124determines that an account is to be created with an authenticationservice 137 (FIG. 1) in order to access one or more secured resources ofa network site 140 (FIG. 1). If an existing account is present, accessto the specific secured resources may be denied through the particularexisting account. In box 406, the authentication management client 124determines whether the client account data 130 (FIG. 1) includes anexisting account for the network site 140. If the client account data130 does not include an existing account for the network site 140, theauthentication management client 124 moves to box 409.

If the client account data 130 does include an existing account, theauthentication management client 124 moves from box 406 to box 412 anddetermines whether the existing account is upgradeable in order toaccess the requested secured resource. If the existing account is notupgradeable, the authentication management client 124 moves from box 412to box 409. It is noted that in some embodiments all or nearly allaccounts may be capable of being upgraded and enriched with additionalinformation when necessary. That is to say, it may be rare situationwhere a user already has an account with a network site 140 but has tocreate another account.

In box 409, the authentication management client 124 obtains consentfrom the user to share the information needed to create an accountcapable of accessing the secured resource. Such a consent may correspondto an explicit confirmation in a user interface, a stored consentpreference, and/or other forms of consent. The user may also provideadditional information. In box 415, the authentication management client124 automatically creates an entirely new account using the set ofinformation about the user, and potentially the newly providedinformation, by communicating with the account creation endpoint 138(FIG. 1). In box 418, if the account was created successfully, theauthentication management client 124 stores the resulting accountinformation, including, for example, automatically generated securitycredentials, in the client account data 130. Thereafter, the portion ofthe authentication management client 124 ends.

If, instead, the authentication management client 124 determines that anexisting account is upgradeable to access the secured resource, theauthentication management client 124 proceeds from box 412 to box 421.In box 421, the authentication management client 124 determines a subsetof the set of user information that is needed to upgrade the existingaccount to access the secured resource. In box 424, the authenticationmanagement client 124 obtains consent from the user to share the subsetof user information. The authentication management client 124 may alsoor instead obtain further information from the user that is not alreadyavailable in the set of user information. In box 427, the authenticationmanagement client 124 upgrades the existing account by providing theadditional user information, including the subset of the set of userinformation and/or the newly provided user information, to the accountcreation endpoint 138 of the network site 140. Thereafter, the portionof the authentication management client 124 ends.

Moving on to FIG. 5, shown is a flowchart that provides one example ofthe operation of yet another portion of the authentication managementclient 124 according to various embodiments. In particular, FIG. 5relates to multi-user use of the authentication management client 124and logout from multiple network sites 140 (FIG. 1). It is understoodthat the flowchart of FIG. 5 provides merely an example of the manydifferent types of functional arrangements that may be employed toimplement the operation of the portion of the authentication managementclient 124 as described herein. As an alternative, the flowchart of FIG.5 may be viewed as depicting an example of steps of a method implementedin the client 103 (FIG. 1) according to one or more embodiments.

Beginning with box 503, the authentication management client 124authenticates a user with the authentication management service 163(FIG. 1) in response to the user providing some security credential. Inbox 506, the authentication management client 124 obtains encryptedaccount data from the authentication management service 163. In box 509,the authentication management client 124 decrypts the account data basedat least in part on a master security credential provided by the user.In box 512, the authentication management client 124 logs into a networksite 140 by communicating with an authentication endpoint 139 (FIG. 1)of an authentication service 137 (FIG. 1).

The authentication management client 124 provides stored securitycredentials from the client account data 130 (FIG. 1). Where multipleauthentication services 137 are available for a given network site 140,the user may explicitly select one of the authentication services 137,or one might be selected automatically according to a stored preferencein the identity provider preference data 131 (FIG. 1). Where an accountdoes not already exist, it may be created or upgraded automatically aspreviously described in connection with the flowcharts of FIGS. 3 and 4.

In box 515, the authentication management client 124 determines whetheranother network site 140 is accessed. Alternatively, another securedresource of the same network site 140 which requires a separate loginmay be accessed. If another network site 140 is accessed, theauthentication management client 124 returns to box 512 and logs intothe other network site 140 using stored security credentials. Thus, theauthentication management client 124 may automatically authenticate withmultiple authentication services 137 corresponding to multiple networksites 140. A respective session may be established for each network site140, which may include session data such as session cookies stored bythe browser 121 (FIG. 1), cached network resources, and so on. Ifanother network site 140 is not accessed, the authentication managementclient 124 instead proceeds from box 515 to box 518.

In box 518, the authentication management client 124 obtains a universallogout request from the user. Such a logout request may be explicit,such as with the user selecting a single logout button on a userinterface of the authentication management client 124, or implicit, suchas with the user exiting the authentication management client 124. Theuser session of the authentication management client 124 may be endedupon a switch user request being made by the user, or when the user logsout of an operating system account. In some cases, a user session withthe authentication management client 124 may be ended automaticallyafter a predefined period of inactivity. In some embodiments, the usermay provide a logout request for a specific network site 140 or a set ofnetwork sites 140.

In response to the logout request, in box 521, the authenticationmanagement client 124 logs out from each network site 140. To this end,the authentication management client 124 may automatically send arespective logout indication to each of the authentication services 137.In box 524, the authentication management client 124 may automaticallyflush any session data and client account data 130. Specifically, thedecrypted account data may be removed from the client 103. Where thelogout request is a specific logout request instead of a universallogout request, the logout may be performed only for the specifiednetwork sites 140. Thus, in the case of a specific logout, the user maycontinue to utilize sessions that were not indicated in the specificlogout request.

In box 527, the authentication management client 124 determines whetheranother user is to use the authentication management client 124. Forexample, the authentication management client 124 may be configured toaccommodate multiple users within a single operating system usersession. If another user is to be authenticated, the authenticationmanagement client 124 returns to box 503. Otherwise, the portion of theauthentication management client 124 ends.

Continuing now to FIG. 6A, shown is a flowchart that provides oneexample of the operation of yet another portion of the authenticationmanagement client 124 according to various embodiments. In particular,FIG. 6A relates to resetting security credentials. It is understood thatthe flowchart of FIG. 6A provides merely an example of the manydifferent types of functional arrangements that may be employed toimplement the operation of the portion of the authentication managementclient 124 as described herein. As an alternative, the flowchart of FIG.6A may be viewed as depicting an example of steps of a methodimplemented in the client 103 (FIG. 1) according to one or moreembodiments.

Beginning with box 603, the authentication management client 124authenticates a user to the authentication management service 163(FIG. 1) in response to the user providing some security credential. Inbox 606, the authentication management client 124 obtains encryptedaccount data from the authentication management service 163. In box 609,the authentication management client 124 decrypts the account data basedat least in part on a master security credential provided by the user.In box 612, the authentication management client 124 obtains a requestto reset the security credentials in the client account data 130 (FIG.1). Such a request may encompass a reset request, a change request,and/or a temporary change request.

In box 615, the authentication management client 124 determines whetherthe operation is permitted. For example, the authentication managementservice 163 may configure the authentication management client 124 suchthat only the first client 103 registered for a particularauthentication management account with the authentication managementservice 163 is permitted to perform certain operations, such asresetting the credentials and/or other operations. Other clients 103 maybe preauthorized by the user as well. In some cases, the user mayprovide a one-time password to effect the reset or change, and theauthentication management service 163 may enforce the one-time password.Also, in some cases, the authentication management client 124 maypresent one or more static knowledge-based questions 172 (FIG. 1) to theuser to verify the identity of the user. The determination as to whetherthe operation is permitted may be made by the authentication managementservice 163.

If the operation is not permitted, the authentication management client124 moves to box 618 and generates an error. Thereafter, the portion ofthe authentication management client 124 ends. Otherwise, theauthentication management client 124 proceeds to box 621 and resets orchanges each one of the security credentials for the accounts of theuser in the client account data 130.

In some cases, the authentication management client 124 may establish asingle temporary password in place of the automatically generatedcredentials. The authentication management client 124 may configure anexpiration for the temporary password, where the security credentialsare regenerated and reset for each of the accounts of the user after theexpiration. In box 624, the authentication management client 124synchronizes the client account data 130 with the server account data166 (FIG. 1). Thereafter, the portion of the authentication managementclient 124 ends.

Transitioning to FIG. 6B, shown is a flowchart that provides one exampleof the operation of yet another portion of the authentication managementclient 124 according to various embodiments. In particular, FIG. 6Brelates to resetting security credentials in response to aserver-originated request. It is understood that the flowchart of FIG.6B provides merely an example of the many different types of functionalarrangements that may be employed to implement the operation of theportion of the authentication management client 124 as described herein.As an alternative, the flowchart of FIG. 6B may be viewed as depictingan example of steps of a method implemented in the client 103 (FIG. 1)according to one or more embodiments.

Beginning with box 633, the authentication management client 124authenticates a user to the authentication management service 163(FIG. 1) in response to the user providing some security credential. Inbox 636, the authentication management client 124 obtains encryptedaccount data from the authentication management service 163. In box 639,the authentication management client 124 decrypts the account data basedat least in part on a master security credential provided by the user.In box 642, the authentication management client 124 obtains a requestto reset the security credentials from the authentication managementservice 163. Such a request may be one-time or periodic in nature.

The authentication management client 124 proceeds to box 651 and resetsor changes each one of the security credentials for the accounts of theuser in the client account data 130. In some cases, the authenticationmanagement client 124 may establish a single temporary password in placeof the automatically generated credentials. The authenticationmanagement client 124 may configure an expiration for the temporarypassword, where the security credentials are regenerated and reset foreach of the accounts of the user after the expiration. In box 654, theauthentication management client 124 synchronizes the client accountdata 130 with the server account data 166 (FIG. 1). Thereafter, theportion of the authentication management client 124 ends.

Referring next to FIG. 7, shown is a flowchart that provides one exampleof the operation of a portion of the authentication endpoint 139according to various embodiments. It is understood that the flowchart ofFIG. 7 provides merely an example of the many different types offunctional arrangements that may be employed to implement the operationof the portion of the authentication endpoint 139 as described herein.As an alternative, the flowchart of FIG. 7 may be viewed as depicting anexample of steps of a method implemented in the computing device 106(FIG. 1) according to one or more embodiments.

Beginning with box 703, the authentication endpoint 139 obtains anauthentication request from an authentication management client 124(FIG. 1). The authentication request may be obtained by way of anauthentication protocol supported by multiple authentication managementclients 124 having different affinities for authentication managementservices 163 (FIG. 1). For example, an authentication management client124 may be distributed by a provider of an authentication managementservice 163, and the authentication management client 124 may have anaffinity for the particular authentication management service 163. Asanother example, the authentication management client 124 may bedistributed by a third party but may still have an affinity for aparticular authentication management service 163 or a set of a pluralityof authentication management services 163.

In box 706, the authentication endpoint 139 determines the affinity ofauthentication management client 124 from the request. For example, theauthentication endpoint 139 may determine the affinity of theauthentication management client 124 according to an identifier in auser agent string. It may be the case that the authentication endpoint139 supports some authentication management clients 124 but not others.Similarly, the account creation endpoint 138 (FIG. 1) may support someauthentication management clients 124 but not others.

In box 709, the authentication endpoint 139 determines whether theparticular authentication management client 124 is supported. If theauthentication management client 124 is not supported, theauthentication endpoint 139 moves to box 712 and denies theauthentication request. Thereafter, the portion of the authenticationendpoint 139 ends. If the authentication management client 124 issupported, the authentication endpoint 139 moves from box 709 to box715.

In box 715, the authentication endpoint 139 obtains a securitycredential from the authentication management client 124. In box 718,the authentication endpoint 139 determines whether the credential isvalid. If the credential is not valid, the authentication endpoint 139moves to box 712 and denies authentication request. Thereafter, theportion of the authentication endpoint 139 ends.

In box 721, the authentication endpoint 139 creates a session for theuser in response to the successful authentication. To this end, theauthentication endpoint 139 may set one or more session cookies with asession token and/or perform other actions. In addition, theauthentication endpoint 139 may send branded experience data (such as,for example, logos, graphics, text, etc.) to the authenticationmanagement client 124. The authentication management client 124 may beconfigured to customize a user interface in the client 103 (FIG. 1) foran identity provider associated with the authentication endpoint 139based at least in part on the branded experience data. The brandedexperience data may include, for example, a logo for a network site 140or identity provider, a link to a privacy policy, a link for terms ofuse, and/or other information.

In box 724, the authentication endpoint 139 determines whether thesecurity credential employed by the authentication management client 124is to be changed. Such a change may be prompted by a manual changerequest from the user or by expiration of a predefined change intervalin the authentication endpoint 139 or in the authentication managementclient 124. If the security credential is to be changed, theauthentication endpoint 139 moves from box 724 to box 727 andestablishes the new security credential. Such a credential may begenerated by the authentication endpoint 139 and sent to theauthentication management client 124, or it may be generated by theauthentication management client 124 and then sent to the authenticationendpoint 139. Thereafter, the portion of the authentication endpoint 139ends. If the security credential is not to be changed, the portion ofthe authentication endpoint 139 also ends.

Moving on to FIG. 8, shown is a flowchart that provides one example ofthe operation of a portion of the authentication management service 163according to various embodiments. It is understood that the flowchart ofFIG. 8 provides merely an example of the many different types offunctional arrangements that may be employed to implement the operationof the portion of the authentication management service 163 as describedherein. As an alternative, the flowchart of FIG. 8 may be viewed asdepicting an example of steps of a method implemented in the computingdevice 112 (FIG. 1) according to one or more embodiments.

Beginning with box 803, the authentication management service 163obtains a request for account data from an authentication managementclient 124 (FIG. 1) at a client 103 (FIG. 1). In box 806, authenticationmanagement service 163 determines whether the request includes a validmaster credential 169 (FIG. 1). If the request does not include thevalid master credential 169 for the user associated with the accountdata, the authentication management service 163 transitions to box 809and denies the request for the account data. Thereafter, the portion ofthe authentication management service 163 ends.

If the request does specify a valid master credential 169, theauthentication management service 163 continues from box 806 to box 812and determines whether the client 103 corresponds to a preauthorizedclient 103. For example, the authentication management service 163 mayevaluate a source network address of the request, a client-identifyingtoken presented in the request, and/or other data. If the authenticationmanagement service 163 determines that the client 103 does notcorrespond to a preauthorized client 103, the authentication managementservice 163 moves to box 813 and prompts the client 103 for a validsupplemental credential 170 (FIG. 1), such as a one-time password, ananswer to a knowledge-based question, etc. If a valid supplementalcredential 170 is not provided, the authentication management service163 moves to box 809 and denies the request for the account data.Thereafter, the portion of the authentication management service 163ends.

If a valid supplemental credential 170 is provided, the authenticationmanagement service 163 continues from box 813 to box 815. If the client103 is instead preauthorized, the authentication management service 163moves from box 812 to box 815. In box 815, the authentication managementservice 163 sends some or all of the encrypted account data from theserver account data 166 (FIG. 1) to the authentication management client124. In box 818, the authentication management service 163 may obtainupdates to the encrypted account data from the authentication managementclient 124. If the authentication management service 163 obtains suchupdates, the authentication management service 163 synchronizes theserver account data 166 in box 821. Thereafter, the portion of theauthentication management service 163 ends.

With reference to FIG. 9, shown is a schematic block diagram of theclient 103 according to an embodiment of the present disclosure. Theclient 103 includes at least one processor circuit, for example, havinga processor 903 and a memory 906, both of which are coupled to a localinterface 909. To this end, the client 103 may comprise, for example, atleast one client computer or like device. The local interface 909 maycomprise, for example, a data bus with an accompanying address/controlbus or other bus structure as can be appreciated. The computing devices106 and 112 may be illustrated similarly to the client 103, and thefollowing discussion also pertains to computing devices 106 and 112.

Stored in the memory 906 are both data and several components that areexecutable by the processor 903. In particular, stored in the memory 906and executable by the processor 903 are the browser 121, theauthentication management client 124, and potentially otherapplications. Also stored in the memory 906 may be a data store 127 andother data. In addition, an operating system may be stored in the memory906 and executable by the processor 903.

It is understood that there may be other applications that are stored inthe memory 906 and are executable by the processor 903 as can beappreciated. Where any component discussed herein is implemented in theform of software, any one of a number of programming languages may beemployed such as, for example, C, C++, C#, Objective C, Java®,JavaScript®, Perl, PHP, Visual Basic®, Python®, Ruby, Delphi®, Flash®,or other programming languages.

A number of software components are stored in the memory 906 and areexecutable by the processor 903. In this respect, the term “executable”means a program file that is in a form that can ultimately be run by theprocessor 903. Examples of executable programs may be, for example, acompiled program that can be translated into machine code in a formatthat can be loaded into a random access portion of the memory 906 andrun by the processor 903, source code that may be expressed in properformat such as object code that is capable of being loaded into a randomaccess portion of the memory 906 and executed by the processor 903, orsource code that may be interpreted by another executable program togenerate instructions in a random access portion of the memory 906 to beexecuted by the processor 903, etc. An executable program may be storedin any portion or component of the memory 906 including, for example,random access memory (RAM), read-only memory (ROM), hard drive,solid-state drive, USB flash drive, memory card, optical disc such ascompact disc (CD) or digital versatile disc (DVD), floppy disk, magnetictape, or other memory components.

The memory 906 is defined herein as including both volatile andnonvolatile memory and data storage components. Volatile components arethose that do not retain data values upon loss of power. Nonvolatilecomponents are those that retain data upon a loss of power. Thus, thememory 906 may comprise, for example, random access memory (RAM),read-only memory (ROM), hard disk drives, solid-state drives, USB flashdrives, memory cards accessed via a memory card reader, floppy disksaccessed via an associated floppy disk drive, optical discs accessed viaan optical disc drive, magnetic tapes accessed via an appropriate tapedrive, and/or other memory components, or a combination of any two ormore of these memory components. In addition, the RAM may comprise, forexample, static random access memory (SRAM), dynamic random accessmemory (DRAM), or magnetic random access memory (MRAM) and other suchdevices. The ROM may comprise, for example, a programmable read-onlymemory (PROM), an erasable programmable read-only memory (EPROM), anelectrically erasable programmable read-only memory (EEPROM), or otherlike memory device.

Also, the processor 903 may represent multiple processors 903 and thememory 906 may represent multiple memories 906 that operate in parallelprocessing circuits, respectively. In such a case, the local interface909 may be an appropriate network that facilitates communication betweenany two of the multiple processors 903, between any processor 903 andany of the memories 906, or between any two of the memories 906, etc.The local interface 909 may comprise additional systems designed tocoordinate this communication, including, for example, performing loadbalancing. The processor 903 may be of electrical or of some otheravailable construction.

Although the browser 121, the authentication management client 124, thenetwork page server 136 (FIG. 1), the authentication service 137 (FIG.1), the authentication management service 163 (FIG. 1), and othervarious systems described herein may be embodied in software or codeexecuted by general purpose hardware as discussed above, as analternative the same may also be embodied in dedicated hardware or acombination of software/general purpose hardware and dedicated hardware.If embodied in dedicated hardware, each can be implemented as a circuitor state machine that employs any one of or a combination of a number oftechnologies. These technologies may include, but are not limited to,discrete logic circuits having logic gates for implementing variouslogic functions upon an application of one or more data signals,application specific integrated circuits having appropriate logic gates,or other components, etc. Such technologies are generally well known bythose skilled in the art and, consequently, are not described in detailherein.

The flowcharts of FIGS. 3-8 show the functionality and operation of animplementation of portions of the authentication management client 124,the authentication endpoint 139 (FIG. 1), and the authenticationmanagement service 163. If embodied in software, each block mayrepresent a module, segment, or portion of code that comprises programinstructions to implement the specified logical function(s). The programinstructions may be embodied in the form of source code that compriseshuman-readable statements written in a programming language or machinecode that comprises numerical instructions recognizable by a suitableexecution system such as a processor 903 in a computer system or othersystem. The machine code may be converted from the source code, etc. Ifembodied in hardware, each block may represent a circuit or a number ofinterconnected circuits to implement the specified logical function(s).

Although the flowcharts of FIGS. 3-8 show a specific order of execution,it is understood that the order of execution may differ from that whichis depicted. For example, the order of execution of two or more blocksmay be scrambled relative to the order shown. Also, two or more blocksshown in succession in FIGS. 3-8 may be executed concurrently or withpartial concurrence. Further, in some embodiments, one or more of theblocks shown in FIGS. 3-8 may be skipped or omitted. In addition, anynumber of counters, state variables, warning semaphores, or messagesmight be added to the logical flow described herein, for purposes ofenhanced utility, accounting, performance measurement, or providingtroubleshooting aids, etc. It is understood that all such variations arewithin the scope of the present disclosure.

Also, any logic or application described herein, including the browser121, the authentication management client 124, the network page server136, the authentication service 137, and the authentication managementservice 163, that comprises software or code can be embodied in anynon-transitory computer-readable medium for use by or in connection withan instruction execution system such as, for example, a processor 903 ina computer system or other system. In this sense, the logic maycomprise, for example, statements including instructions anddeclarations that can be fetched from the computer-readable medium andexecuted by the instruction execution system. In the context of thepresent disclosure, a “computer-readable medium” can be any medium thatcan contain, store, or maintain the logic or application describedherein for use by or in connection with the instruction executionsystem.

The computer-readable medium can comprise any one of many physical mediasuch as, for example, magnetic, optical, or semiconductor media. Morespecific examples of a suitable computer-readable medium would include,but are not limited to, magnetic tapes, magnetic floppy diskettes,magnetic hard drives, memory cards, solid-state drives, USB flashdrives, or optical discs. Also, the computer-readable medium may be arandom access memory (RAM) including, for example, static random accessmemory (SRAM) and dynamic random access memory (DRAM), or magneticrandom access memory (MRAM). In addition, the computer-readable mediummay be a read-only memory (ROM), a programmable read-only memory (PROM),an erasable programmable read-only memory (EPROM), an electricallyerasable programmable read-only memory (EEPROM), or other type of memorydevice.

It should be emphasized that the above-described embodiments of thepresent disclosure are merely possible examples of implementations setforth for a clear understanding of the principles of the disclosure.Many variations and modifications may be made to the above-describedembodiment(s) without departing substantially from the spirit andprinciples of the disclosure. All such modifications and variations areintended to be included herein within the scope of this disclosure andprotected by the following claims.

Therefore, the following is claimed:
 1. A non-transitorycomputer-readable medium embodying a program executable in a clientcomputing device, the program comprising: code that, in response toreceiving a master security credential from a user, requests accountdata for a plurality of accounts of the user for a plurality of networksites from an authentication management service over a network using themaster security credential, the account data including a respectivesecurity credential for individual ones of the plurality of accounts;code that automatically authenticates with a plurality of authenticationservices corresponding to at least two of the plurality of network sitesusing a respective at least two of the plurality of accounts in responseto the user accessing the at least two of the plurality of networksites, wherein a respective session is established for individual onesof the network sites; code that determines that a logout is to beperformed based at least in part on at least one of a user logoutindication or an expiration of a predetermined period of userinactivity; and code that performs the logout by ending the respectivesessions, the code that performs the logout being further configured to:automatically send a respective logout indication to individual ones ofthe plurality of authentication services; automatically flush datarelating to the respective sessions in the client computing device; andautomatically remove the account data from the client computing device.2. The non-transitory computer-readable medium of claim 1, wherein thedata relating to the respective sessions includes a plurality of sessioncookies stored by a browser application executed in the client computingdevice.
 3. The non-transitory computer-readable medium of claim 1,wherein the program is configured to decrypt the account data using themaster security credential.
 4. A system, comprising: a computing device;and an authentication client executable in the computing device, theauthentication client comprising: logic that requests account data for aplurality of accounts of a user for a plurality of network sites from anauthentication management service using a master security credentialsupplied by the user, the account data including a respective securitycredential for individual ones of the accounts; logic that automaticallyauthenticates with a plurality of authentication services correspondingto at least two of the plurality of network sites using a respective atleast two of the plurality of accounts in response to the user accessingthe at least two of the plurality of network sites, wherein a respectivesession is established for individual ones of the plurality of networksites; logic that determines that a logout is to be performed; and logicthat performs the logout by ending the respective sessions, wherein thelogic that performs the logout is configured to automatically remove theaccount data from the computing device.
 5. The system of claim 4,wherein the logic that performs the logout is configured toautomatically send a respective logout indication to individual ones ofthe plurality of authentication services.
 6. The system of claim 4,wherein the logic that performs the logout is configured toautomatically flush data relating to the respective sessions in thecomputing device.
 7. The system of claim 6, wherein the data relating tothe respective sessions includes a plurality of session cookies.
 8. Thesystem of claim 4, wherein the user accesses the at least two of theplurality of network sites by way of a browser application executed inthe computing device.
 9. The system of claim 4, wherein the logic thatdetermines that the logout is to be performed is configured to obtain asingle logout request from the user.
 10. The system of claim 4, whereinthe logic that determines that the logout is to be performed isconfigured to obtain a switch user request from the user.
 11. The systemof claim 4, wherein the logic that determines that the logout is to beperformed is configured to determine whether a predetermined period ofuser inactivity has been met.
 12. The system of claim 4, wherein thelogic that determines that the logout is to be performed is configuredto determine whether the user has logged out of an operating systemaccount.
 13. The system of claim 4, wherein the authentication client isconfigured to download the account data in an encrypted form from theauthentication management service.
 14. The system of claim 13, whereinthe authentication client is configured to decrypt the account datausing the master security credential.
 15. A method, comprising:receiving, via at least one of one or more computing devices, a mastersecurity credential from a user; receiving, via at least one of the oneor more computing devices, account data for a plurality of accounts ofthe user for a plurality of network sites from an authenticationmanagement service over a network using the master security credential,the account data including a respective security credential forindividual ones of the plurality of accounts; automaticallyauthenticating, via at least one of the one or more computing devices,with a plurality of authentication services corresponding to at leasttwo the plurality of network sites using a respective at least two ofthe plurality of accounts in response to the user accessing the at leasttwo of the plurality of network sites, wherein a respective session isestablished for individual ones of the plurality of network sites;determining, via at least one of the one or more computing devices, thata logout is to be performed; performing, via at least one of the one ormore computing devices, the logout by ending the respective sessions;and removing, via at least one of the one or more computing devices, theaccount data in response to the logout.
 16. The method of claim 15,further comprising decrypting, via at least one of the one or morecomputing devices, the account data using the master security credentialreceived from the user.
 17. The method of claim 15, further comprisingdecrypting, via at least one of the one or more computing devices, theaccount data using another master security credential stored in acomputer-readable medium in the computing device.
 18. The method ofclaim 15, wherein performing the logout further comprises automaticallysending, via at least one of the one or more computing devices, arespective logout indication to individual ones of the plurality ofauthentication services.
 19. The method of claim 15, wherein performingthe logout further comprises automatically flushing, via at least one ofthe one or more computing devices, data relating to the respectivesessions.
 20. The method of claim 15, wherein determining, via at leastone of the one or more computing devices, that the logout is to beperformed further comprises determining, via at least one of the one ormore computing devices, whether the user has logged out of an operatingsystem account.